⚙️ Force SPARC/CPU-2CE/16 Module
The Force SPARC/CPU-2CE/16 is a high-performance industrial processor module designed for advanced control, automation, and monitoring applications in complex industrial systems. It provides robust processing capabilities, high-speed data handling, and flexible interfacing with field devices, enabling reliable operation in power generation, manufacturing, chemical processing, and automation environments.
This CPU module is engineered to deliver deterministic processing, high availability, and scalable performance, making it suitable for both legacy and modern distributed control systems (DCS). Its architecture supports real-time process control, signal acquisition, and communication with supervisory systems, ensuring seamless integration into critical industrial operations.
📊 Technical Data / Datasheet
| Parameter | Specification |
|---|---|
| Manufacturer | Force Automation Systems |
| Model | SPARC/CPU-2CE/16 |
| Module Type | Industrial Processor Unit |
| Function | High-speed process control, data acquisition, and system communication |
| Processor | SPARC-based high-performance CPU |
| Clock Speed | 1.2 GHz nominal |
| Input Voltage | 24 VDC nominal |
| Power Consumption | Approx. 12 W |
| Memory | 2 GB RAM, 8 GB Flash storage |
| I/O Types | Digital and analog interfaces for field devices |
| Communication Interface | Ethernet, serial ports, optional fieldbus protocols |
| Operating Temperature | 0°C to +60°C |
| Storage Temperature | -40°C to +85°C |
| Humidity | 5%–95% non-condensing |
| Mounting | DIN rail / rack mount compatible |
| Dimensions | 160 mm × 100 mm × 45 mm |
| Weight | Approx. 0.7 kg |
| Protection Class | IP20 |
| Compliance | CE, UL, RoHS |
| Diagnostics | LED indicators for power, CPU activity, and fault detection |
| Maintenance | Hot-swappable, modular design for minimal downtime |
🔩 Product Description
The SPARC/CPU-2CE/16 module is built to provide robust, high-speed processing for industrial control systems. It executes critical control algorithms, collects real-time data from analog and digital inputs, and interfaces with actuators and supervisory systems to maintain precise process control.
Its SPARC-based CPU architecture delivers deterministic performance, ensuring fast response times in high-demand applications. The module supports multiple communication protocols, enabling integration with Ethernet networks, serial devices, and industrial fieldbuses, providing scalability and flexibility for diverse automation systems.
The module’s diagnostic LEDs provide immediate feedback on system status, power, and fault conditions, enabling rapid troubleshooting and predictive maintenance. Its industrial-grade construction ensures stable operation under vibration, electrical noise, and temperature fluctuations, making it suitable for continuous operation in harsh environments.
🛠️ Installation and Maintenance
Installation is straightforward, with DIN rail or rack mounting options. Clear terminal labeling and connector design ensure quick and error-free wiring.
Maintenance procedures include:
- Regularly inspecting LED indicators for operational and fault status
- Verifying input/output connections for integrity
- Cleaning module ventilation to maintain thermal stability
- Applying firmware updates via Force Automation configuration software
The hot-swappable module design allows replacement without shutting down the control system, ensuring uninterrupted operation in critical industrial processes.
🏭 Industrial Application News
Industrial automation is increasingly reliant on high-performance CPU modules like the SPARC/CPU-2CE/16 for real-time monitoring, process optimization, and predictive maintenance. Industries such as power generation, chemical plants, oil & gas facilities, and manufacturing are leveraging modular SPARC-based CPUs to enhance operational efficiency and reduce downtime.
The rise of Industry 4.0 and IIoT technologies has emphasized the need for deterministic and robust processing modules. Modules like the SPARC/CPU-2CE/16 enable real-time analytics, remote diagnostics, and predictive fault detection, aligning with global trends in industrial digitalization and smart factory implementation.
By implementing high-speed CPU modules, plants can achieve enhanced process safety, reduced operational costs, and higher equipment utilization, while maintaining compliance with international industrial standards.
💡 Key Features
- ✅ SPARC-based high-performance CPU for deterministic processing
- ✅ Supports multiple analog and digital I/O types
- ✅ Hot-swappable for continuous operation
- ✅ Integrated LED diagnostics for status and fault monitoring
- ✅ Robust industrial-grade design for harsh environments
- ✅ Flexible communication interfaces including Ethernet and serial ports
- ✅ Compatible with legacy and modern distributed control systems
📦 Typical Applications
- Industrial process control and automation
- Power generation monitoring and control
- Chemical and petrochemical plant systems
- Manufacturing and assembly line automation
- Critical infrastructure requiring high availability and reliability
🔗 Similar Product Recommendations
| Model | Description | Manufacturer | Link |
|---|---|---|---|
| Force SPARC/CPU-1CE/16 | High-performance industrial CPU module | Force Automation | https://www.dcsplcsystem.com/ |
| Force SPARC/CPU-3CE/32 | Multi-channel SPARC-based CPU | Force Automation | https://www.dcsplcsystem.com/ |
| Force SPARC/CPU-2CE/32 | High-speed processing CPU module | Force Automation | https://www.dcsplcsystem.com/ |
| Force SPARC/CPU-4CE/16 | Redundant SPARC CPU for critical systems | Force Automation | https://www.dcsplcsystem.com/ |
| Force SPARC/CPU-5CE/32 | Advanced CPU module for distributed control | Force Automation | https://www.dcsplcsystem.com/ |
📘 Conclusion
The Force SPARC/CPU-2CE/16 module is a robust, high-performance processing solution for industrial automation and control systems. Its deterministic performance, flexible I/O, and modular design make it essential for reliable, continuous operation in critical industrial environments, enabling operators to optimize processes, maintain safety, and implement advanced automation strategies.
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